JP3220942U - Locking external fixation device for the treatment of tibial fractures - Google Patents

Abstract

A locking external fixation device for use in the treatment of tibial fractures that is smaller, lighter, cleaner in appearance, simplifies the treatment process and effectively reduces complications. A locking external fixation device used for treating a tibial fracture includes a long frame 1 and a plurality of screws. A plurality of screw holes 2 are uniformly distributed in the horizontal direction on the long frame, the screws are screwed into the screw holes, and the screw holes correspond to the screw threads of the screws, thereby connecting the screws. [Selection] Figure 5

Description

  The present invention relates to a lock-type external fixation device used for treating a tibial fracture, and belongs to the technical field of medical equipment.

  Tibial fractures are common fractures, and surgical treatment is one of the main treatment tools. The purpose of treatment is to fix the fracture site, and there are two types of fixation methods: internal fixation and external fixation. Internal fixation using steel plates and screws as the material is currently the main treatment method in the clinic, but the disadvantages of conventional internal fixation are large surgical wounds, long cuts, noticeable scars, and fractures healed Later, the internally fixed steel sheet is located under the skin and is often conspicuous, and it is necessary to remove it by secondary surgery for reasons such as the appearance, etc. Tibial fractures are often open wounds and soft tissue conditions are good However, the difficulty of internal fixation surgery increases, and the surgical risk is high. In the conventional external fixing frame, the frame of the external fixing frame is heavy, the operation is complicated, the fixing effect is bad, it is easy to loosen, and trousers cannot often be worn. Therefore, conventional external fixation is limited to only open wounds and orthodontic extension surgery in the process of tibial fracture treatment, and greatly limits the application range of external fixation.

  The purpose of the present invention is to provide a lock-type external fixation device for use in the treatment of tibial fractures, to change the structure of the conventional external fixation frame used for the treatment of existing tibial fractures, and to overcome the structural drawbacks of existing external fixation frames Thus, it is intended to provide a smaller, lighter, externally-appropriate external fixation frame, simplify the tibial fracture treatment process, and effectively reduce the complications of tibial fracture treatment.

  A lock-type external fixation device used for treating a tibial fracture provided by the present invention includes an elongate frame and a plurality of screws. In the frame, a plurality of screw holes are horizontally installed in the long frame, the screws are screwed into the screw holes, and the screw holes of the frame correspond to the screw threads of the frame, thereby connecting the screws.

The advantages of the lock-type external fixation device used for the treatment of tibial fracture provided by the present invention are as follows.
1. The lock type external fixation device of the present invention is used outside the body and belongs to the range of external fixation, so the wound is small, there is little bleeding, the cut is reduced several times, only 3 to 4 cm, in the fracture region, Cut complications are clearly reduced and scars are small and aesthetically pleasing.

  2. The lock-type external fixation device of the present invention is used outside the body, belongs to the range of external fixation, and the external fixation device does not need to be attached to the surface of the bone. The degree of difficulty is reduced, and the operation time is shortened. Correspondingly, the risk of surgical complications is reduced, and it is easy for young doctors to grasp, and the learning time is shortened.

  3. Since the lock type external fixation device of the present invention is external fixation, it is not necessary to take out the internal fixation of the tibia by the secondary operation, the risk of the secondary operation is avoided, and the patient can save medical expenses.

  4). The lock-type external fixing device of the present invention can use a lightweight material such as stainless steel, titanium alloy, carbon fiber or aluminum alloy, and has a smaller volume, lighter weight, and patient pain compared to a conventional external fixing frame. Small and beneficial for patient recovery.

  5. The lock-type external fixing device of the present invention can employ K-wire drilling, and is less damaged and has relatively few pin path complications compared to conventional electric drill drilling, thus increasing the safety of the operation.

  6). The lock type external fixing device of the present invention can be fixed using a plurality of (for example, 8 to 10) thin pins (for example, a screw having a diameter of 5.0 mm). There is an effect that the fixing becomes smaller and more reliable.

  7). The lock type external fixing device of the present invention has a uniform distribution of screw holes and a relatively large number of screw holes, so that the doctor can fix the pins as needed, and the screw holes that do not pass the pins are filled with caps. It helps to increase the strength of the frame and prevent breakage of the frame.

  8. The lock-type external fixing device of the present invention adopts a screw-type lock structure instead of a conventional external fixing frame connection method such as pin clipping, etc. Is smaller and less likely to lose its efficacy and loosen.

1 is a structural diagram of an embodiment of a lock-type external fixation device used for treatment of a tibial fracture provided by the present invention. FIG. 3 is a structural diagram of an embodiment of a screw of a lock-type external fixation device used for treatment of a tibial fracture provided by the present invention. It is a top view of the structure of the Example of the lock-type external fixation apparatus used for the treatment of the tibial fracture which this invention provides. FIG. 3 is a structural diagram of an embodiment of a cap of a lock-type external fixation device used for treatment of a tibial fracture provided by the present invention. 1 is a structural diagram of an embodiment of a lock-type external fixation device used for treatment of a tibial fracture provided by the present invention.

  Here, 1 is a long frame, 2 is a screw hole, 3 is a screw tail, 4 is a screw center, 5 is a screw tip, and 6 is a cap.

  Hereinafter, specific embodiments of the present invention will be described in more detail with reference to the drawings and examples.

  A lock-type external fixation device used for treating a tibial fracture provided by the present invention includes an elongate frame and a plurality of screws. In the frame, a plurality of screw holes are horizontally installed in the long frame, the screws are screwed into the screw holes, and the screw holes of the frame correspond to the screw threads of the frame, thereby connecting the screws.

  The locking external fixation device used for the treatment of a tibial fracture according to the present invention combines the advantages of a conventional tibial steel plate and an external fixation frame, and is designed as a long locking external fixation device according to the outline of the tibia. Achieves the effect of not pressing the skin as close as possible to the skin, and the frame may be of any shape such as a rectangular parallelepiped, pillar, half-pillar, etc., and is located outside the body without touching the skin. Can be selected from metals such as stainless steel, aluminum alloy and titanium alloy, or lightweight materials such as carbon steel and carbon fiber.

  Hereinafter, the lock-type external fixation device used for the treatment of the tibial fracture according to the present invention will be further described with reference to the embodiments and the drawings.

  As shown in FIGS. 1 and 3, the lock-type external fixation device used for the treatment of the tibial fracture according to the embodiment includes a long frame, a plurality of screws, and a cap. Among these, the length of the long frame 1 is determined according to the length of the tibia that needs to be fixed, and is generally 15 to 25 cm, and is one to three minutes of the length of the human tibia. Between the two. The width and thickness of the long frame are determined according to the strength of the material to be used, so that the overall weight can be reduced while satisfying the strength when the frame is applied. The diameter of the screw hole corresponds to the screw, and the number of screw holes is determined according to the strength of the material and the flexibility of the position of the screw to be screwed in when applied. Generally, the number of screw holes is between 5-12. The long frame of the present embodiment is a rectangular parallelepiped, on which 11 screw holes 2 are evenly installed in the horizontal direction, which helps a doctor to freely select a screw fixing position as necessary. At the same time, the weight of the long frame can be reduced. The screw hole 2 on the frame is 90 degrees perpendicular to the long frame 1, the upper side is a screw hole corresponding to the screw thread, and the lower side is a via slightly smaller in diameter than the upper screw hole. is there. A hollow frustum coaxial with the screw hole is provided at the bottom end of the screw hole 2, and the inner diameter of the frustum is the same as the diameter of the lower via of the screw hole 2. Prevents touching the skin and helps with soft tissue processing.

  As shown in FIG. 2, the screw structure of the present embodiment is constituted by a pointed tip 5, a cylindrical middle stage 4, and a tail part 3 which are integrally formed. Of these, the tip has a conical shape with an external thread and is used to fix the skeleton. The outer diameter of the middle stage corresponds to the hole diameter of the lower screw hole of the long frame, the tail part 3 is provided with a male screw, the diameter of the male screw corresponds to the inner diameter of the upper screw hole, and the center part of the top end of the tail part Is provided with a screw hole, and a screw is screwed into the screw hole of the long frame with a corresponding tool, and the tip 5 of the screw is screwed into the human tibia to help fix the fracture. The diameter of the middle stage 4 is slightly smaller than the diameter of the lower side of the screw hole 2, and the middle stage penetrates the lower side of the screw hole 2, the apex contacts the skin and soft tissue, enters the human tibia and fixes the fracture To do. The tail 3 is fixed to the upper side of the screw hole 2. The screw uses a thin pin and has a diameter of 3 to 7 mm. The length of the screw corresponds to the sum of the thickness of the long frame, the distance between the frame and the skin, the soft tissue thickness outside the tibia and the depth of fitting into the tibia. The screw of the present embodiment is manufactured using medical stainless steel or titanium alloy material.

  As shown in FIG. 4, the structure of the cap 6 of the present embodiment is a columnar base having a large top and a small bottom. A male screw is installed on the upper outer surface of the column base. The length and diameter of the male screw correspond to the depth and inner diameter of the upper screw hole of the long frame. The lower outer surface of the column base is a smooth surface. The lower diameter of the column base corresponds to the inner diameter of the lower via of the frame, a screw hole is installed in the center of the top end of the cap, and a screw can be screwed into the screw hole of the long frame with a suitable tool. Useful. In this embodiment, 6 to 10 screws are screwed into the screw holes and fixed, and the caps 6 are screwed into 1 to 5 screw holes where the screws are not screwed to increase the frame strength. Can prevent tearing. The cap can be selected from metals such as stainless steel, aluminum alloy and titanium alloy, or lightweight materials such as carbon steel and carbon fiber.

  The structure of the present embodiment is a slight wound and has features such as no need to be removed by secondary surgery, and various complications in the treatment of tibial fractures are effectively reduced. The surgical operation process of the lock-type external fixation device used in the treatment of a tibial fracture provided by the present invention is as follows.

  First, reduce the fractured tibia by incision or percutaneous reduction by leverage, temporarily fix a long frame with K-wire, hollow pin, headless pin, etc., and position the frame under fluoroscopy After confirming that it was accurate, the K-wire was again passed through the screw hole at the appropriate position of the frame, drilled into the tibia, and finally the screw was screwed into the screw hole at the position of the drilled tibia and fractured. The tibia is fixed and the remaining screw holes are sealed with a cap.

  For reliability of fixed strength, it is recommended to screw at least 3 screws at each end of the broken bone, 4 is more preferable, and 5 is used when strength needs to be increased .

  In comminuted fractures, it is sufficient to employ traction to restore the length of the tibia, crush small broken bone masses and reduce the function, and then place a locking external fixation device. At this time, it is most preferable to screw as many screws as possible into the long frames at both ends of the tibia in order to increase the fixing effect.

  The outer shape of the tibial locking external fixation device frame part is designed according to the tibial contour, designed to be a cuboid based on the tibial contour, to maximize the fixation strength and meet the mechanical needs to fix the tibia There is a round base at the bottom end of the screw hole.

  If the fracture is friable and the fracture area is relatively long, it is necessary to seal the screw holes not pinned in the intermediate fracture area with a cap to prevent the frame from tearing.

Claims (7)

A locking external fixation device used for the treatment of tibial fractures,
Including a long frame and a plurality of screws;
The frame has a plurality of screw holes installed horizontally in the long frame, the screws are screwed into the screw holes, and the screw holes of the frame correspond to the screw threads of the frame to connect the screws. A locking external fixation device used for the treatment of tibial fractures.   The lock-type external fixation device used for the treatment of a tibial fracture according to claim 1, wherein the elongated frame has a shape of any one of a rectangular parallelepiped, a columnar body, and a half-columnar body. The screw hole consists of an upper screw hole and a lower via,
The lock type external fixation device used for the treatment of a tibial fracture according to claim 1 or 2, wherein a hole diameter of the upper screw hole is larger than a hole diameter of the lower via. The screw is composed of an integrally formed tip, a cylindrical middle stage and a tail,
Since the screw is screwed into the screw hole of the long frame by a corresponding tool, the pointed end is a conical shape having a male screw and is used to fix the skeleton, and the outer diameter of the middle stage is a long length. The tail portion has a male screw, the diameter of the tail portion corresponds to the inner diameter of the upper screw hole, and the screw hole is installed at the center of the top end of the tail portion. The locking external fixation device used for the treatment of a tibial fracture according to any one of claims 1 to 3.   5. The tibial fracture treatment according to claim 1, wherein a hollow conical frustum is provided below a screw hole of the long frame, and is used to increase a connection strength of the screw. Locking external fixing device used. Including a cap,
The cap is a cylindrical base having a large top and a small bottom,
In order to be screwed into the screw hole of the long frame with a corresponding tool, a male screw is installed on the outer surface of the upper side of the column base, and the length and diameter of the male screw are the same as the depth of the upper screw hole of the long frame. Corresponding to the inner diameter, the lower outer surface of the columnar base is a smooth surface, the lower diameter of the columnar column corresponds to the inner diameter of the lower via of the frame, and the screw hole is the central part of the top end of the cap The locking external fixation device used for the treatment of a tibial fracture according to claim 5, wherein the locking external fixation device is used for treatment of a tibial fracture. In the case where the frame satisfies the required strength, stainless steel, aluminum alloy, titanium alloy or carbon steel, carbon fiber, any one kind of material,
The lock type external fixation device for use in treating a tibial fracture according to claim 6, wherein the screw is manufactured using medical stainless steel or titanium alloy material.